All Downloads are FREE. Search and download functionalities are using the official Maven repository.

jogamp.opengl.util.pngj.PngWriter Maven / Gradle / Ivy

There is a newer version: 2.3.2
Show newest version
package jogamp.opengl.util.pngj;

import java.io.IOException;
import java.io.OutputStream;
import java.util.Arrays;
import java.util.List;
import java.util.zip.Deflater;
import java.util.zip.DeflaterOutputStream;

import jogamp.opengl.util.pngj.ImageLine.SampleType;
import jogamp.opengl.util.pngj.chunks.ChunkCopyBehaviour;
import jogamp.opengl.util.pngj.chunks.ChunkHelper;
import jogamp.opengl.util.pngj.chunks.ChunksList;
import jogamp.opengl.util.pngj.chunks.ChunksListForWrite;
import jogamp.opengl.util.pngj.chunks.PngChunk;
import jogamp.opengl.util.pngj.chunks.PngChunkIEND;
import jogamp.opengl.util.pngj.chunks.PngChunkIHDR;
import jogamp.opengl.util.pngj.chunks.PngChunkSkipped;
import jogamp.opengl.util.pngj.chunks.PngChunkTextVar;
import jogamp.opengl.util.pngj.chunks.PngMetadata;

/**
 * Writes a PNG image
 */
public class PngWriter {

	public final ImageInfo imgInfo;

	private final String filename; // optional, can be a description

	/**
	 * last read row number, starting from 0
	 */
	protected int rowNum = -1;

	private final ChunksListForWrite chunksList;

	private final PngMetadata metadata; // high level wrapper over chunkList

	/**
	 * Current chunk grounp, (0-6) already read or reading
	 * 

* see {@link ChunksList} */ protected int currentChunkGroup = -1; /** * PNG filter strategy */ protected FilterWriteStrategy filterStrat; /** * zip compression level 0 - 9 */ private int compLevel = 6; private boolean shouldCloseStream = true; // true: closes stream after ending write private PngIDatChunkOutputStream datStream; private DeflaterOutputStream datStreamDeflated; /** * Deflate algortithm compression strategy */ private int deflaterStrategy = Deflater.FILTERED; private int[] histox = new int[256]; // auxiliar buffer, only used by reportResultsForFilter private int idatMaxSize = 0; // 0=use default (PngIDatChunkOutputStream 32768) private final OutputStream os; protected byte[] rowb = null; // element 0 is filter type! protected byte[] rowbfilter = null; // current line with filter protected byte[] rowbprev = null; // rowb prev // this only influences the 1-2-4 bitdepth format - and if we pass a ImageLine to writeRow, this is ignored private boolean unpackedMode = false; public PngWriter(OutputStream outputStream, ImageInfo imgInfo) { this(outputStream, imgInfo, "[NO FILENAME AVAILABLE]"); } /** * Constructs a new PngWriter from a output stream. After construction * nothing is writen yet. You still can set some parameters (compression, * filters) and queue chunks before start writing the pixels. *

* See also FileHelper.createPngWriter() if available. * * @param outputStream * Opened stream for binary writing * @param imgInfo * Basic image parameters * @param filenameOrDescription * Optional, just for error/debug messages */ public PngWriter(OutputStream outputStream, ImageInfo imgInfo, String filenameOrDescription) { this.filename = filenameOrDescription == null ? "" : filenameOrDescription; this.os = outputStream; this.imgInfo = imgInfo; // prealloc rowb = new byte[imgInfo.bytesPerRow + 1]; rowbprev = new byte[rowb.length]; rowbfilter = new byte[rowb.length]; chunksList = new ChunksListForWrite(imgInfo); metadata = new PngMetadata(chunksList); filterStrat = new FilterWriteStrategy(imgInfo, FilterType.FILTER_DEFAULT); // can be changed } private void init() { datStream = new PngIDatChunkOutputStream(this.os, idatMaxSize); Deflater def = new Deflater(compLevel); def.setStrategy(deflaterStrategy); datStreamDeflated = new DeflaterOutputStream(datStream, def); writeSignatureAndIHDR(); writeFirstChunks(); } private void reportResultsForFilter(int rown, FilterType type, boolean tentative) { Arrays.fill(histox, 0); int s = 0, v; for (int i = 1; i <= imgInfo.bytesPerRow; i++) { v = rowbfilter[i]; if (v < 0) s -= (int) v; else s += (int) v; histox[v & 0xFF]++; } filterStrat.fillResultsForFilter(rown, type, s, histox, tentative); } private void writeEndChunk() { PngChunkIEND c = new PngChunkIEND(imgInfo); c.createRawChunk().writeChunk(os); } private void writeFirstChunks() { int nw = 0; currentChunkGroup = ChunksList.CHUNK_GROUP_1_AFTERIDHR; nw = chunksList.writeChunks(os, currentChunkGroup); currentChunkGroup = ChunksList.CHUNK_GROUP_2_PLTE; nw = chunksList.writeChunks(os, currentChunkGroup); if (nw > 0 && imgInfo.greyscale) throw new PngjOutputException("cannot write palette for this format"); if (nw == 0 && imgInfo.indexed) throw new PngjOutputException("missing palette"); currentChunkGroup = ChunksList.CHUNK_GROUP_3_AFTERPLTE; nw = chunksList.writeChunks(os, currentChunkGroup); currentChunkGroup = ChunksList.CHUNK_GROUP_4_IDAT; } private void writeLastChunks() { // not including end currentChunkGroup = ChunksList.CHUNK_GROUP_5_AFTERIDAT; chunksList.writeChunks(os, currentChunkGroup); // should not be unwriten chunks List pending = chunksList.getQueuedChunks(); if (!pending.isEmpty()) throw new PngjOutputException(pending.size() + " chunks were not written! Eg: " + pending.get(0).toString()); currentChunkGroup = ChunksList.CHUNK_GROUP_6_END; } /** * Write id signature and also "IHDR" chunk */ private void writeSignatureAndIHDR() { currentChunkGroup = ChunksList.CHUNK_GROUP_0_IDHR; PngHelperInternal.writeBytes(os, PngHelperInternal.getPngIdSignature()); // signature PngChunkIHDR ihdr = new PngChunkIHDR(imgInfo); // http://www.libpng.org/pub/png/spec/1.2/PNG-Chunks.html ihdr.setCols(imgInfo.cols); ihdr.setRows(imgInfo.rows); ihdr.setBitspc(imgInfo.bitDepth); int colormodel = 0; if (imgInfo.alpha) colormodel += 0x04; if (imgInfo.indexed) colormodel += 0x01; if (!imgInfo.greyscale) colormodel += 0x02; ihdr.setColormodel(colormodel); ihdr.setCompmeth(0); // compression method 0=deflate ihdr.setFilmeth(0); // filter method (0) ihdr.setInterlaced(0); // we never interlace ihdr.createRawChunk().writeChunk(os); } protected void encodeRowFromByte(byte[] row) { if (row.length == imgInfo.samplesPerRowPacked) { // some duplication of code - because this case is typical and it works faster this way int j = 1; if (imgInfo.bitDepth <= 8) { for (byte x : row) { // optimized rowb[j++] = x; } } else { // 16 bitspc for (byte x : row) { // optimized rowb[j] = x; j += 2; } } } else { // perhaps we need to pack? if (row.length >= imgInfo.samplesPerRow && unpackedMode) ImageLine.packInplaceByte(imgInfo, row, row, false); // row is packed in place! if (imgInfo.bitDepth <= 8) { for (int i = 0, j = 1; i < imgInfo.samplesPerRowPacked; i++) { rowb[j++] = row[i]; } } else { // 16 bitspc for (int i = 0, j = 1; i < imgInfo.samplesPerRowPacked; i++) { rowb[j++] = row[i]; rowb[j++] = 0; } } } } protected void encodeRowFromInt(int[] row) { // http://www.libpng.org/pub/png/spec/1.2/PNG-DataRep.html if (row.length == imgInfo.samplesPerRowPacked) { // some duplication of code - because this case is typical and it works faster this way int j = 1; if (imgInfo.bitDepth <= 8) { for (int x : row) { // optimized rowb[j++] = (byte) x; } } else { // 16 bitspc for (int x : row) { // optimized rowb[j++] = (byte) (x >> 8); rowb[j++] = (byte) (x); } } } else { // perhaps we need to pack? if (row.length >= imgInfo.samplesPerRow && unpackedMode) ImageLine.packInplaceInt(imgInfo, row, row, false); // row is packed in place! if (imgInfo.bitDepth <= 8) { for (int i = 0, j = 1; i < imgInfo.samplesPerRowPacked; i++) { rowb[j++] = (byte) (row[i]); } } else { // 16 bitspc for (int i = 0, j = 1; i < imgInfo.samplesPerRowPacked; i++) { rowb[j++] = (byte) (row[i] >> 8); rowb[j++] = (byte) (row[i]); } } } } private void filterRow(int rown) { // warning: filters operation rely on: "previos row" (rowbprev) is // initialized to 0 the first time if (filterStrat.shouldTestAll(rown)) { filterRowNone(); reportResultsForFilter(rown, FilterType.FILTER_NONE, true); filterRowSub(); reportResultsForFilter(rown, FilterType.FILTER_SUB, true); filterRowUp(); reportResultsForFilter(rown, FilterType.FILTER_UP, true); filterRowAverage(); reportResultsForFilter(rown, FilterType.FILTER_AVERAGE, true); filterRowPaeth(); reportResultsForFilter(rown, FilterType.FILTER_PAETH, true); } FilterType filterType = filterStrat.gimmeFilterType(rown, true); rowbfilter[0] = (byte) filterType.val; switch (filterType) { case FILTER_NONE: filterRowNone(); break; case FILTER_SUB: filterRowSub(); break; case FILTER_UP: filterRowUp(); break; case FILTER_AVERAGE: filterRowAverage(); break; case FILTER_PAETH: filterRowPaeth(); break; default: throw new PngjUnsupportedException("Filter type " + filterType + " not implemented"); } reportResultsForFilter(rown, filterType, false); } private void prepareEncodeRow(int rown) { if (datStream == null) init(); rowNum++; if (rown >= 0 && rowNum != rown) throw new PngjOutputException("rows must be written in order: expected:" + rowNum + " passed:" + rown); // swap byte[] tmp = rowb; rowb = rowbprev; rowbprev = tmp; } private void filterAndSend(int rown) { filterRow(rown); try { datStreamDeflated.write(rowbfilter, 0, imgInfo.bytesPerRow + 1); } catch (IOException e) { throw new PngjOutputException(e); } } protected void filterRowAverage() { int i, j, imax; imax = imgInfo.bytesPerRow; for (j = 1 - imgInfo.bytesPixel, i = 1; i <= imax; i++, j++) { rowbfilter[i] = (byte) (rowb[i] - ((rowbprev[i] & 0xFF) + (j > 0 ? (rowb[j] & 0xFF) : 0)) / 2); } } protected void filterRowNone() { for (int i = 1; i <= imgInfo.bytesPerRow; i++) { rowbfilter[i] = (byte) rowb[i]; } } protected void filterRowPaeth() { int i, j, imax; imax = imgInfo.bytesPerRow; for (j = 1 - imgInfo.bytesPixel, i = 1; i <= imax; i++, j++) { // rowbfilter[i] = (byte) (rowb[i] - PngHelperInternal.filterPaethPredictor(j > 0 ? (rowb[j] & 0xFF) : 0, // rowbprev[i] & 0xFF, j > 0 ? (rowbprev[j] & 0xFF) : 0)); rowbfilter[i] = (byte) PngHelperInternal.filterRowPaeth(rowb[i], j > 0 ? (rowb[j] & 0xFF) : 0, rowbprev[i] & 0xFF, j > 0 ? (rowbprev[j] & 0xFF) : 0); } } protected void filterRowSub() { int i, j; for (i = 1; i <= imgInfo.bytesPixel; i++) rowbfilter[i] = (byte) rowb[i]; for (j = 1, i = imgInfo.bytesPixel + 1; i <= imgInfo.bytesPerRow; i++, j++) { // !!! rowbfilter[i] = (byte) (rowb[i] - rowb[j]); rowbfilter[i] = (byte) PngHelperInternal.filterRowSub(rowb[i], rowb[j]); } } protected void filterRowUp() { for (int i = 1; i <= imgInfo.bytesPerRow; i++) { // rowbfilter[i] = (byte) (rowb[i] - rowbprev[i]); !!! rowbfilter[i] = (byte) PngHelperInternal.filterRowUp(rowb[i], rowbprev[i]); } } protected int sumRowbfilter() { // sums absolute value int s = 0; for (int i = 1; i <= imgInfo.bytesPerRow; i++) if (rowbfilter[i] < 0) s -= (int) rowbfilter[i]; else s += (int) rowbfilter[i]; return s; } /** * copy chunks from reader - copy_mask : see ChunksToWrite.COPY_XXX *

* If we are after idat, only considers those chunks after IDAT in PngReader *

* TODO: this should be more customizable */ private void copyChunks(PngReader reader, int copy_mask, boolean onlyAfterIdat) { boolean idatDone = currentChunkGroup >= ChunksList.CHUNK_GROUP_4_IDAT; if (onlyAfterIdat && reader.getCurrentChunkGroup() < ChunksList.CHUNK_GROUP_6_END) throw new PngjExceptionInternal("tried to copy last chunks but reader has not ended"); for (PngChunk chunk : reader.getChunksList().getChunks()) { int group = chunk.getChunkGroup(); if (group < ChunksList.CHUNK_GROUP_4_IDAT && idatDone) continue; boolean copy = false; if (chunk.crit) { if (chunk.id.equals(ChunkHelper.PLTE)) { if (imgInfo.indexed && ChunkHelper.maskMatch(copy_mask, ChunkCopyBehaviour.COPY_PALETTE)) copy = true; if (!imgInfo.greyscale && ChunkHelper.maskMatch(copy_mask, ChunkCopyBehaviour.COPY_ALL)) copy = true; } } else { // ancillary boolean text = (chunk instanceof PngChunkTextVar); boolean safe = chunk.safe; // notice that these if are not exclusive if (ChunkHelper.maskMatch(copy_mask, ChunkCopyBehaviour.COPY_ALL)) copy = true; if (safe && ChunkHelper.maskMatch(copy_mask, ChunkCopyBehaviour.COPY_ALL_SAFE)) copy = true; if (chunk.id.equals(ChunkHelper.tRNS) && ChunkHelper.maskMatch(copy_mask, ChunkCopyBehaviour.COPY_TRANSPARENCY)) copy = true; if (chunk.id.equals(ChunkHelper.pHYs) && ChunkHelper.maskMatch(copy_mask, ChunkCopyBehaviour.COPY_PHYS)) copy = true; if (text && ChunkHelper.maskMatch(copy_mask, ChunkCopyBehaviour.COPY_TEXTUAL)) copy = true; if (ChunkHelper.maskMatch(copy_mask, ChunkCopyBehaviour.COPY_ALMOSTALL) && !(ChunkHelper.isUnknown(chunk) || text || chunk.id.equals(ChunkHelper.hIST) || chunk.id .equals(ChunkHelper.tIME))) copy = true; if (chunk instanceof PngChunkSkipped) copy = false; } if (copy) { chunksList.queue(PngChunk.cloneChunk(chunk, imgInfo)); } } } /** * Copies first (pre IDAT) ancillary chunks from a PngReader. *

* Should be called when creating an image from another, before starting * writing lines, to copy relevant chunks. *

* * @param reader * : PngReader object, already opened. * @param copy_mask * : Mask bit (OR), see ChunksToWrite.COPY_XXX * constants */ public void copyChunksFirst(PngReader reader, int copy_mask) { copyChunks(reader, copy_mask, false); } /** * Copies last (post IDAT) ancillary chunks from a PngReader. *

* Should be called when creating an image from another, after writing all * lines, before closing the writer, to copy additional chunks. *

* * @param reader * : PngReader object, already opened and fully read. * @param copy_mask * : Mask bit (OR), see ChunksToWrite.COPY_XXX * constants */ public void copyChunksLast(PngReader reader, int copy_mask) { copyChunks(reader, copy_mask, true); } /** * Computes compressed size/raw size, approximate. *

* Actually: compressed size = total size of IDAT data , raw size = * uncompressed pixel bytes = rows * (bytesPerRow + 1). * * This must be called after pngw.end() */ public double computeCompressionRatio() { if (currentChunkGroup < ChunksList.CHUNK_GROUP_6_END) throw new PngjOutputException("must be called after end()"); double compressed = (double) datStream.getCountFlushed(); double raw = (imgInfo.bytesPerRow + 1) * imgInfo.rows; return compressed / raw; } /** * Finalizes the image creation and closes the stream. This MUST be called * after writing the lines. */ public void end() { if (rowNum != imgInfo.rows - 1) throw new PngjOutputException("all rows have not been written"); try { datStreamDeflated.finish(); datStream.flush(); writeLastChunks(); writeEndChunk(); if (shouldCloseStream) os.close(); } catch (IOException e) { throw new PngjOutputException(e); } } /** * returns the chunks list (queued and writen chunks) */ public ChunksListForWrite getChunksList() { return chunksList; } /** * Filename or description, from the optional constructor argument. */ public String getFilename() { return filename; } /** * High level wrapper over chunksList for metadata handling */ public PngMetadata getMetadata() { return metadata; } /** * Sets compression level of ZIP algorithm. *

* This must be called just after constructor, before starting writing. *

* See also setFilterType() * * @param compLevel * between 0 and 9 (default:6 , recommended: 6 or more) */ public void setCompLevel(int compLevel) { if (compLevel < 0 || compLevel > 9) throw new PngjOutputException("Compression level invalid (" + compLevel + ") Must be 0..9"); this.compLevel = compLevel; } /** * Sets internal prediction filter type, or strategy to choose it. *

* This must be called just after constructor, before starting writing. *

* See also setCompLevel() * * @param filterType * One of the five prediction types or strategy to choose it (see * PngFilterType) Recommended values: DEFAULT * (default) or AGGRESIVE */ public void setFilterType(FilterType filterType) { filterStrat = new FilterWriteStrategy(imgInfo, filterType); } /** * Sets maximum size of IDAT fragments. This has little effect on * performance you should rarely call this *

* * @param idatMaxSize * default=0 : use defaultSize (32K) */ public void setIdatMaxSize(int idatMaxSize) { this.idatMaxSize = idatMaxSize; } /** * if true, input stream will be closed after ending write *

* default=true */ public void setShouldCloseStream(boolean shouldCloseStream) { this.shouldCloseStream = shouldCloseStream; } /** * Deflater strategy: one of Deflater.FILTERED Deflater.HUFFMAN_ONLY * Deflater.DEFAULT_STRATEGY *

* Default: Deflater.FILTERED . This should be changed very rarely. */ public void setDeflaterStrategy(int deflaterStrategy) { this.deflaterStrategy = deflaterStrategy; } /** * Writes line, checks that the row number is consistent with that of the * ImageLine See writeRow(int[] newrow, int rown) * * @deprecated Better use writeRow(ImageLine imgline, int rownumber) */ public void writeRow(ImageLine imgline) { writeRow(imgline.scanline, imgline.getRown()); } /** * Writes line. See writeRow(int[] newrow, int rown) * * The packed flag of the imageline is honoured! * * @see #writeRowInt(int[], int) */ public void writeRow(ImageLine imgline, int rownumber) { unpackedMode = imgline.samplesUnpacked; if (imgline.sampleType == SampleType.INT) writeRowInt(imgline.scanline, rownumber); else writeRowByte(imgline.scanlineb, rownumber); } /** * Same as writeRow(int[] newrow, int rown), but does not check row number * * @param newrow */ public void writeRow(int[] newrow) { writeRow(newrow, -1); } /** * Alias to writeRowInt * * @see #writeRowInt(int[], int) */ public void writeRow(int[] newrow, int rown) { writeRowInt(newrow, rown); } /** * Writes a full image row. *

* This must be called sequentially from n=0 to n=rows-1 One integer per * sample , in the natural order: R G B R G B ... (or R G B A R G B A... if * has alpha) The values should be between 0 and 255 for 8 bitspc images, * and between 0- 65535 form 16 bitspc images (this applies also to the * alpha channel if present) The array can be reused. *

* Warning: the array might be modified in some cases (unpacked row with low * bitdepth) *

* * @param newrow * Array of pixel values. Warning: the array size should be exact * (samplesPerRowP) * @param rown * Row number, from 0 (top) to rows-1 (bottom). This is just used * as a check. Pass -1 if you want to autocompute it */ public void writeRowInt(int[] newrow, int rown) { prepareEncodeRow(rown); encodeRowFromInt(newrow); filterAndSend(rown); } /** * Same semantics as writeRowInt but using bytes. Each byte is still a * sample. If 16bitdepth, we are passing only the most significant byte (and * hence losing some info) * * @see PngWriter#writeRowInt(int[], int) */ public void writeRowByte(byte[] newrow, int rown) { prepareEncodeRow(rown); encodeRowFromByte(newrow); filterAndSend(rown); } /** * Writes all the pixels, calling writeRowInt() for each image row */ public void writeRowsInt(int[][] image) { for (int i = 0; i < imgInfo.rows; i++) writeRowInt(image[i], i); } /** * Writes all the pixels, calling writeRowByte() for each image row */ public void writeRowsByte(byte[][] image) { for (int i = 0; i < imgInfo.rows; i++) writeRowByte(image[i], i); } public boolean isUnpackedMode() { return unpackedMode; } /** * If false (default), and image has bitdepth 1-2-4, the scanlines passed * are assumed to be already packed. *

* If true, each element is a sample, the writer will perform the packing if * necessary. *

* Warning: when using {@link #writeRow(ImageLine, int)} (recommended) the * packed flag of the ImageLine object overrides (and overwrites!) * this field. */ public void setUseUnPackedMode(boolean useUnpackedMode) { this.unpackedMode = useUnpackedMode; } }





© 2015 - 2024 Weber Informatics LLC | Privacy Policy